The U.S. Air Force plans to launch two space surveillance spacecraft into
high-altitude orbits later this year to monitor satellite traffic in the
congested geosynchronous belt 22,300 miles above Earth, the head of Space
Command has announced.

Air Force Gen. William Shelton.
Photo credit: U.S. Air Force photo/Scott M. Ash

The previously classified program will help the Air Force track man-made
orbiting objects in high-altitude orbits, a region populated by the military's
strategic communications and early warning satellites.

The capabilities of existing space surveillance assets on the ground and in
orbit a few hundred miles above Earth are limited in detecting satellite
movements at higher altitudes, according to military officials.

Known as the Geosynchronous Space Situational Awareness Program, or GSSAP,
the initiative was revealed Friday by Gen. William Shelton, head of Air Force
Space Command, who described the system as a "neighborhood watch" for
satellites.

"GSSAP will produce a significant improvement in space object surveillance,
not only for better collision avoidance but also for detecting threats,"
Shelton said in a speech at the Air Warfare Symposium in Orlando, Fla. "GSSAP
will bolster our ability to discern when adversaries attempt to avoid
detection and to discover capabilities they may have which might be harmful to
our critical assets at these higher altitudes."

The service published a fact sheet on the program in conjunction with
Shelton's announcement.

According to the fact sheet, the surveillance project's primary contractor
is Orbital Sciences Corp. The GSSAP program's budget and details of the
satellites were not released.

The Air Force's Space Based Space Surveillance, or SBSS, satellite launched
in 2010 with an optical telescope to peer at spacecraft in geosynchronous
orbit. But SBSS flies in low Earth orbit about 300 miles high, putting it
thousands of miles away from its observational targets.

The GSSAP satellites will be much closer, but the Air Force has not said
how close.

"As other nations show their commitment in investing in systems capable of
harming our satellites, we are committed to investing in space surveillance
assets like GSSAP that will directly enable safe operations, protect our
spacecraft, and indirectly enable a range of decisive responses that will
enable counterspace threats ineffective," Shelton said.

The Air Force says the satellites will operate in a "near-geosynchronous
orbit regime" and "will have a clear, unobstructed and distinct vantage point
for viewing resident space objects orbiting earth in a near-geosynchronous
orbit without the disruption of weather or atmosphere that can limit
ground-based systems."

Spacecraft positioned 22,300 miles over the equator appear to hover over a
fixed location on Earth because their speed matches the rate of the planet's
rotation. Geosynchronous orbits are popular with commercial and military
communications satellite operators.

"Some of our most precious satellites fly in that orbit," Shelton said,
citing the Air Force's jam-resistant Advanced EHF communications satellites
and the Space Based Infrared System, a network of high-altitude sensors to
detect missile launches around the world.

"One cheap shot against the AEHF constellation would be devastating,"
Shelton said. "Similarly, with our Space Based Infrared System, SBIRS, one
cheap shot creates a hole in our environment."

Carrying electro-optical imaging sensors to locate other objects, the GSSAP
satellites could drift around the geosynchronous belt to inspect other
spacecraft with ease. It takes relatively little propellant to maneuver around
geosynchronous orbit, where satellites are tightly clustered in a narrow band
directly above the equator.

The space surveillance satellites will launch from Cape Canaveral on a
United Launch Alliance Delta 4 rocket in late 2014, Shelton said.

The launch was scheduled for this month but moved to the end of the year
behind three Delta 4 launches with a pair of GPS navigation payloads and the
first orbital test flight of NASA's Orion crew exploration vehicle. The
reasons for the delay were not disclosed.

Another pair of GSSAP satellites are scheduled to lift off in 2016.

Controllers with the Air Force's 50th Space Wing at Schriever Air Force
Base, Colo., will oversee commanding of the GSSAP satellites, according to the
program's fact sheet.

The launcher's main payloads were previously kept secret by the Air Force.
The flight is listed on the Delta 4 manifest as the "Air Force Space
Command-4" mission.

An Air Force spokesperson told Spaceflight Now last year the Air Force
Space Command-4 launch's destination was geosynchronous orbit, indicating the
Delta 4 would directly inject its payloads into a near-circular orbit near the
satellites' final operating locations.

Artist's concept of the ANGELS satellite with the Delta 4
rocket's upper stage.
Photo credit: U.S. Air Force

The military previously acknowledged a secondary passenger on the Delta 4
flight as a technology demonstration satellite known as ANGELS, which stands
for Automated Navigation and Guidance Experiment for Local Space.

Like the pair of larger geosynchronous space surveillance platforms, the
ANGELS microsatellite is equipped with instrumentation to detect, track and
identify other spacecraft in orbit.

Orbital Sciences is also leading construction of the ANGELS spacecraft
after winning a competition with Lockheed Martin Corp. to build the satellite.

Orbital Sciences and Lockheed Martin have experience in the space
surveillance realm.

The companies teamed up to supply two satellites to the Defense Advanced
Research Projects Agency, or DARPA, the Pentagon's research and development
division, for a mysterious technology demonstration mission named MiTEx
launched in 2006.

The washing machine-sized MiTEx satellites roamed geosynchronous orbit for
at least several years, including a visit to a failed U.S. Air Force missile
warning satellite for an unprecedented close-up inspection.

Lockheed Martin also led industrial development of the Air Force's
experimental XSS-11 mission, a predecessor to ANGELS. XSS-11 tried out
autonomous rendezvous and inspection techniques in low Earth orbit a few
hundred miles up.

ANGELS will test accelerometers and modified algorithms to use GPS
navigation signals for precise guidance in close proximity to other
satellites, reducing the probability of a collision, according to the Air
Force.

Developed by NASA, the advanced GPS algorithms will allow the ANGELS
spacecraft to use navigation data from GPS satellites flying below
geosynchronous altitude.

Managed by the Air Force Research Laboratory's Space Vehicles Directorate,
ANGELS will do a similar job as XSS-11 in a much higher orbit, autonomously
maneuvering around the upper stage of the Delta 4 rocket after the launcher
completes its mission.

An Air Force fact sheet says the scope of the ANGELS mission is limited to
operations in the space around the Delta 4 upper stage.